RU2702678C1 - Device for therapeutic thermal treatment of bees - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to devices for medical thermal treatment of bees. Device consists of a case of the magazine extension, in which by means of a partition wall there are two zones: suction, in which there is an electric motor with a fan, and delivery, in which heaters and a temperature sensor are installed. Mesh framed by the size of the hive is mounted above the frames. Partition is installed parallel to planes of frames. On the grid in the delivery zone and in the suction zone there is an air flow distributor. Each air flow distributor is made in the form of a pack of screens. Set of meshes for the delivery zone has the greatest thickness at the point of the greatest head of air and decreasing thickness as the pressure drop decreases. Set of grids for the suction zone has the greatest thickness at the point of maximum rarefaction and decreasing thickness as the rarefaction decreases. In the lower part of the beehive under the frames there is a free purged space communicating the delivery and suction zones.

EFFECT: distribution of heated air throughout the bee habitat is improved.

6 cl, 1 dwg

Description

The device for therapeutic heat treatment of bees relates to agriculture and concerns the protection of bees from parasitic ticks, including for combating Varroa ticks.

There is a known method of heat treatment of bees (RU 2258359), which proposes to use a heat chamber for controlling a temperature regulator and a heating indicator and having a fan, which allows the heat volume to be treated with the internal volume of the hive through a window closed with a grid, temperature control (40 ° C) is carried out using an internal iron sensor .

An electric iron is used as a heater.

The advantage of the proposed method is simplicity; the transfer of bees from the hive to the heat chamber is excluded.

The proposed method has a number of disadvantages.

There is no temperature control inside the hive, which can lead to overheating and death of bees, and underheating will not cause the death of ticks. The heat gradient emanating from the iron can be significant, inside the hive there can be zones of both overheating and underheating.

The use of household appliances (iron, fan) operating from the power supply network 110 (127, 220) in the field is dangerous due to possible electric shock.

There is a safe method for treating bees from various pests (RU 2395197).

In this case, in the hive, air is heated from the thermopile installed at the bottom of the hive, while a metal mesh is located above the thermopile; with the help of a thermostat, the required temperature for heating the hive is set; with the help of a timer, the heating time is set; powered by a network of 15 V.

The mesh size of the mesh was chosen with the expectation that dead ticks would freely fly through the mesh and fall onto a metal sheet, from the surface of which they would be removed using an existing mop.

The advantage of this invention is the inability to defeat email. electric current.

The disadvantage of the invention is the high cost of the hive, determined by the presence in the hive of a stationary device to combat ticks, which will be used occasionally. In addition, heat is supplied to the hive from the heater by convection, the heat distribution is uneven, and the temperature inside is controlled at one point, which does not guarantee compliance with the temperature regime safe for bees and destructive for ticks in different parts of the hive.

Known device A.A. Bormotova for heat treatment of bees without disassembling the nest (Beekeeping magazine No. 7, 2010 M), consisting of a store extension body, in which a device is mounted, divided by a partition into two zones in width: a suction, which occupies 1/3 of the volume, and injection, occupying 2/3 of the volume.

An electric motor with a fan and a scroll is placed in the suction zone, which supply air to the discharge zone, where two heating elements and a temperature sensor are installed.

Under the store extension, a grid framed by the size of the hive is installed.

In the operating mode of heat treatment of the hive, the heated air (t = 45-47 ° C) is blown along the frames, the set temperature mode is ensured by the temperature controller.

The device was powered directly from the 220 V power supply network, which, when working in the field, is fraught with the danger of electric shock.

Device A.A. Bormotova for heat treatment of bees is taken as a prototype.

In the known device, when heated air is blown along the frames, a significant temperature gradient arises on the surface of each frame, caused by closure of flows between the zones, from the point of greatest air pressure to the place of greatest rarefaction along the shortest path, creating low blowability (ventilation) in the lower part of the frames, which leads to an uneven distribution of heat, which affects the quality of the treatment for bees.

The objective of the invention is to provide a more effective fight against ticks during therapeutic heat treatment of bees, while ensuring electrical safety in the field.

The technical result of the solution of the task should be a uniform distribution of the heated air throughout the entire habitat of bees.

This goal is achieved in that a device for therapeutic heat treatment of bees, consisting of a store extension body, in which two zones are made by means of a partition: suction, in which an electric motor with a fan is located, and discharge, in which heaters and a temperature sensor are installed, while according to the invention, a partition is installed parallel to the planes of the frames.

On the grid in the discharge zone and in the suction zone, an air flow distributor is made, each in the form of a packet of grids having the greatest thickness at the place of the greatest air pressure and decreasing packet thickness as the pressure decreases for the discharge zone, as well as the largest thickness of the packet in place the greatest rarefaction and decreasing thickness with decreasing vacuum for the suction zone, in addition, in the lower part of the hive under the frames there is a free blown space connecting the pressure and suction zones.

A microprocessor-based controller may be implemented in the device, connected to heaters and to a temperature sensor, with the possibility of automatic control and regulation of temperature in the hive.

A microprocessor-based controller can be connected to at least two temperature sensors installed in different places of the hive with the possibility of automatic temperature control and regulation taking into account temperatures in at least two different places of the hive.

The microprocessor-based controller can be additionally connected to a humidity sensor installed in the hive, with the ability to control the humidity level in the hive.

The microprocessor-based controller can additionally be connected to an air flow velocity sensor installed in the hive, with the ability to control and regulate the air flow velocity.

An electric power supply unit can be made, which consists of an internal combustion engine and an electric generator with a residual current device supplying the electrical part of the device.

A more detailed operation of the device is explained using the technical drawing (Fig. 1), which shows a side view in section of an exemplary design of the hive.

The store extension case contains a cover 1, on which a controller 2 is mounted, powered from an autonomous power supply, consisting of: a residual current device 3, an electric generator 4, an internal combustion engine 5, connected to the controller: temperature sensors 6, which are installed in the hive in the location area frames 7, above the frames above the sensor there is a grid 8 framed by the size of the hive, the magazine extension is divided by a partition 9 into a suction zone 10 and a discharge zone 11, forcing and suction of the flow is ensured a fan 12 with a bell 13, a flow distributor installed in the discharge zone is a set of plastic nets 14 installed above the grid 8, a flow distributor installed in the suction zone is a set of nets 15, heaters 16, 17 are installed above the bell, in the lower part of the hive has a free space of 18.

In order to control the humidity level and control and regulate the flow rate, under the cover of the extension, one humidity sensor 19 and an air flow sensor 20 are installed, which are connected to the controller.

The device operates as follows.

The flow distributors 14, 15 are designed and installed taking into account the nonlinear distribution of speeds and temperatures in the discharge zones 11 and suction 10 by selecting the thicknesses of the grids.

At the moment of turning on the controller 2, the fan 12 is turned on and the controller supplies the voltage to the heaters 16, 17 according to the specified control program, while in the transition period the temperature of the heated air and the air flow rate are controlled, when the processor reaches the specified processing modes, it counts the processing period, at the end of the processing, the heaters 16, 17 are disconnected from the network and the fan speed 12 is automatically reduced to a complete stop .

Based on the foregoing, it can be argued that the implementation of air flow distributors in the injection and suction zones allows for a more uniform distribution of heat across the frames, provides warm air blowing between the frames throughout the nest volume, creating the most favorable conditions for bees during treatment from parasitic mites throughout the volume of habitat of bees.

The need to control the humidity and the degree of blowing provided by the humidity sensor 19 and the air velocity sensor 20 is caused by the requirement to prevent the bees from steaming, which can be fatal to them.

The presence of a controller working according to a given program provides automation of the process, high information content and control of the processing process.

Powered by an autonomous power source using a residual current circuit breaker ensures safe operation with a therapeutic heat treatment device for bees, including in the field

The technical result is achieved due to the fact that the partition separating the suction and discharge zones is installed parallel to the planes of the frames, which allows you to create parallel flows between the planes of the frames, including the lower parts of the frames, closing the flows of the discharge zone and the suction zone in the lower free space of the hive, while in each zone above the grid of its air flow distributors it is possible to obtain parallel flows between the frames more uniform than in known constructions.

Claims (6)

1. A device for therapeutic heat treatment of bees, consisting of a store extension case, in which two zones are made by means of a partition: a suction, in which an electric motor with a fan is located, and a discharge, in which heaters and a temperature sensor are installed, and a grid is installed over the frames, framed by the size of the hive, characterized in that the partition is installed parallel to the planes of the frames, while on the grid in the discharge zone and in the suction zone is made according to the air flow distributor, each in the form a net aeta having the largest thickness at the site of the greatest air pressure and decreasing packet thickness as the air pressure decreases for the discharge zone, as well as the largest package thickness at the site of greatest vacuum and decreasing thickness as the vacuum decreases for the suction zone, in addition, at the bottom The hive under the frames has a free blown space connecting the discharge and suction zones. 2. A device for therapeutic heat treatment of bees according to claim 1, characterized in that the controller is based on a microprocessor, connected to heaters and to a temperature sensor, with the ability to automatically control and regulate the temperature in the hive. 3. A device for therapeutic heat treatment of bees according to claim 1, characterized in that the microprocessor-based controller is connected to at least two temperature sensors installed in different places of the hive with the possibility of automatic temperature control and regulation, taking into account at least two different temperatures places of the hive. 4. Device for therapeutic heat treatment of bees according to any paragraph. 2, 3, characterized in that in addition the microprocessor-based controller is connected to a humidity sensor installed in the hive, with the ability to control the humidity level in the hive. 5. Device for therapeutic heat treatment of bees according to paragraphs. 2-4, characterized in that the microprocessor-based controller is additionally connected to an air flow velocity sensor installed in the hive, with the ability to control and regulate the air flow velocity. 6. Device for therapeutic heat treatment of bees according to any one of paragraphs. 1-5, characterized in that the power supply unit is made, which consists of an internal combustion engine and an electric generator with a residual current device.

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